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    SC1400 CORE REFERENCE MANUAL Search Results

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    IPL33

    Abstract: TAG 8643 WD115 WD55 EE28 en49 16550 uart timing diagram en18 IPL115 WD100
    Contextual Info: MSC711X Reference Manual MSC7110, MSC7112, MSC7113, MSC7115, MSC7116, MSC7118, and MSC7119 MSC711xRM Rev. 1, November 2006 How to Reach Us: Home Page: www.freescale.com E-mail: support@freescale.com USA/Europe or Locations not listed: Freescale Semiconductor


    Original     		MSC711X MSC7110, MSC7112, MSC7113, MSC7115, MSC7116, MSC7118, MSC7119 MSC711xRM CH370 IPL33 TAG 8643 WD115 WD55 EE28 en49 16550 uart timing diagram en18 IPL115 WD100 PDF

    MSC8126

    Abstract: DSP56300 MSC8101 MSC8103 MSC8122 SC1400 VOCODERS voip
    Contextual Info: Freescale Semiconductor Application Note MSC711x Overview By Donald Simon This application note describes the MSC711x architecture and compares the MSC711x family of DSPs with the MSC81xx family of DSPs MSC8101, MSC8102, MSC8103, MSC8122, and MSC8126 . The MSC711x family is a medium-to-high performance line of


    Original     		MSC711x MSC81xx MSC8101, MSC8102, MSC8103, MSC8122, MSC8126) MSC8126 DSP56300 MSC8101 MSC8103 MSC8122 SC1400 VOCODERS voip PDF

    core SC1400

    Abstract: MSC8126 SC1400 DSP56300 MSC8101 MSC8103 MSC8122 DDR Controller 64256 DSP MSC8100
    Contextual Info: Freescale Semiconductor Application Note AN3056 Rev. 0, 12/2005 MSC711x Overview By Donald Simon This application note describes the MSC711x architecture and compares the MSC711x family of DSPs with the MSC81xx family of DSPs MSC8101, MSC8102, MSC8103, MSC8122,


    Original     		AN3056 MSC711x MSC81xx MSC8101, MSC8102, MSC8103, MSC8122, MSC8126) core SC1400 MSC8126 SC1400 DSP56300 MSC8101 MSC8103 MSC8122 DDR Controller 64256 DSP MSC8100 PDF

    stopwatch led

    Abstract: stopwatch GaN ADS AN2090 MNSC140CORE SC140 SC1400
    Contextual Info: Freescale Semiconductor Application Note AN2090 Rev. 1, 1/2005 Using the SC140/SC1400 Enhanced On-Chip Emulator Stopwatch Timer By Kim-Chyan Gan and Yuval Ronen A stopwatch timer is an apparatus for measuring the exact duration of an event. Measuring code execution time on a DSP


    Original     		AN2090 SC140/SC1400 OCE10) stopwatch led stopwatch GaN ADS AN2090 MNSC140CORE SC140 SC1400 PDF

    stopwatch

    Abstract: stopwatch led core SC1400 variable timer circuit AN2090 MNSC140CORE SC140 SC1400 ee core 0x80030003
    Contextual Info: Freescale Semiconductor Application Note AN2090 Rev. 2, 06/2006 Using the SC140/SC1400 Enhanced On-Chip Emulator Stopwatch Timer Kim-Chyan Gan and Yuval Ronen A stopwatch timer is an apparatus for measuring the exact duration of an event. Measuring code execution time on a


    Original     		AN2090 SC140/SC1400 OCE10) stopwatch stopwatch led core SC1400 variable timer circuit AN2090 MNSC140CORE SC140 SC1400 ee core 0x80030003 PDF

    stopwatch

    Abstract: AN2090 MNSC140CORE MSC7116 SC140 SC1400
    Contextual Info: Freescale Semiconductor Application Note Using the SC140/SC1400 Enhanced On-Chip Emulator Stopwatch Timer Kim-Chyan Gan and Yuval Ronen A stopwatch timer is an apparatus for measuring the exact duration of an event. Measuring code execution time on a DSP is useful to identify opportunities for code optimization,


    Original     		SC140/SC1400 OCE10) MSC7116 stopwatch AN2090 MNSC140CORE MSC7116 SC140 SC1400 PDF

    SC1400

    Abstract: SC1400 Core Reference Manual
    Contextual Info: Freescale Semiconductor Product Brief MSC7119 Low-Cost 16-bit DSP with DDR Controller and 10/100 Mbps Ethernet MAC JTAG DMA 32 Channel AMDMA 128 64 OCE10 from IPBus SC1400 Core Trace Buffer (8 KB) 64 M2 SRAM (192 KB) 128 Boot ROM (8 KB) 128 ASM2 MUX JTAG Port


    Original     		MSC7119PB MSC7119 16-bit SC1400 OCE10 HDI16 HDI16) RS-232 MSC7119 SC1400 Core Reference Manual PDF

    SC1400

    Abstract: DSP56300 MSC7118 SC1000
    Contextual Info: Freescale Semiconductor Product Brief MSC7118PB Rev. 1, 9/2005 MSC7118 Low-Cost 16-Bit DSP With DDR Controller JTAG DMA 32 Channel AMDMA 64 128 OCE10 from IPBus SC1400 Core M2 SRAM (192 KB) 128 ASM2 MUX JTAG Port 64 64 DSP Extended Core Boot ROM (8 KB) 128


    Original     		MSC7118PB MSC7118 16-Bit OCE10 SC1400 HDI16) HDI16 RS-232 SC1400 DSP56300 MSC7118 SC1000 PDF

    MSC7110

    Abstract: SC1000 SC1400
    Contextual Info: Freescale Semiconductor Product Brief MSC7110PB Rev. 2, 12/2005 MSC7110 Low-Cost 16-Bit DSP with DDR Controller DMA 32 ch JTAG Port JTAG ASM2 AMDMA 128 Boot ROM (8 KB) 64 to IPBus Instruction Cache (16 KB) Extended Core Interface AMIC 128 AMEC 64 Multiplexer


    Original     		MSC7110PB MSC7110 16-Bit SC1400 HDI16) HDI16 RS-232 MSC7110 SC1400 SC1000 PDF

    implementation of quad uart with dsp

    Abstract: MSC7119PB DSP56300 MSC7119 SC1000 SC1400 62-BIT Multi-Channel DMA Controller
    Contextual Info: Freescale Semiconductor Product Brief MSC7119PB Rev. 1, 9/2005 MSC7119 Low-Cost 16-bit DSP with DDR Controller and 10/100 Mbps Ethernet MAC JTAG DMA 32 Channel AMDMA 128 64 OCE10 from IPBus SC1400 Core Trace Buffer (8 KB) 64 M2 SRAM (192 KB) 128 Boot ROM


    Original     		MSC7119PB MSC7119 16-bit OCE10 SC1400 HDI16 RS-232 implementation of quad uart with dsp MSC7119PB DSP56300 MSC7119 SC1000 SC1400 62-BIT Multi-Channel DMA Controller PDF

    AN2208

    Abstract: AN2715 DSP56300 DSP56321 DSP56F800 MSC8101 SC140 SC1400 saturation instructions AN220
    Contextual Info: Freescale Semiconductor Application Note AN2715 Rev. 1, 11/2004 Porting Code From the DSP56300 Family of Products to the SC140/SC1400 Core by Iantha Scheiwe As evolving DSP56300-based applications require additional processing power, the natural evolution path leads to SC140based devices. Developers currently using products in the


    Original     		AN2715 DSP56300 SC140/SC1400 DSP56300-based SC140based DSP56300 SC140 SC140 AN2208 AN2715 DSP56321 DSP56F800 MSC8101 SC1400 saturation instructions AN220 PDF

    AN2208

    Abstract: AN2715 DSP56300 DSP56F800 MSC7116 MSC7118 MSC7119 MSC8101 SC140 SC1400
    Contextual Info: Freescale Semiconductor Application Note Porting Code From the DSP56300 Family of Products to the SC140/SC1400 Core by Iantha Scheiwe As evolving DSP56300-based applications require additional processing power, the natural evolution path leads to SC140based devices. Developers currently using products in the


    Original     		DSP56300 SC140/SC1400 DSP56300-based SC140based DSP56300 SC140 SC140 AN2208 AN2715 DSP56F800 MSC7116 MSC7118 MSC7119 MSC8101 SC1400 PDF

    g729 Optimization

    Abstract: AN2397 SC140 vocoder g.729 G.729E AN2261 core SC1400 G.729D MSC8101ADS lpc 1678
    Contextual Info: Freescale Semiconductor Application Note AN2397 Rev. 1, 12/2004 ITU-T G.729I Recommendation on the StarCore SC140/SC1400 Cores By Corneliu Margina, Emilian Medve, and Bogdan Costinescu This application note describes the process of implementing the ITU-T G.729I Recommendation on Freescale DSPs based on


    Original     		AN2397 SC140/SC1400 SC140 g729 Optimization AN2397 vocoder g.729 G.729E AN2261 core SC1400 G.729D MSC8101ADS lpc 1678 PDF

    SC140 Series

    Abstract: 246 NB AN2280 intrinsics MR67 SC140
    Contextual Info: Freescale Semiconductor Application Note AN2280 Rev. 1, 11/2004 3GPP-AMR-NB With ETSI-EFR Implementation on the StarCore SC140/SC1400 Cores By Razvan Ungureanu, Bogdan Costinescu, and Costel Ilas Among the vocoders defined by the Third Generation Partnership Project 3GPP for use in the 3G world is the


    Original     		AN2280 SC140/SC1400 SC140 SC140 Series 246 NB AN2280 intrinsics MR67 PDF

    MSC7110

    Abstract: MSC7112 MSC7116 SC1400 SL10 1L44X MSC7115
    Contextual Info: Freescale Semiconductor Errata MSC711xCE1L44X Rev. 8, 4/2008 MSC711x Device Errata for Mask 1L44X Covers MSC7110, MSC7112, MSC7113, MSC7115, and MSC7116 ID Number Errata SL1 TDR Flag Date Published: 03/07/2005 Description: When the TDM TX FIFO is enabled, the TDR flag does not correctly


    Original     		MSC711xCE1L44X MSC711x 1L44X MSC7110, MSC7112, MSC7113, MSC7115, MSC7116 MSC7110 MSC7112 MSC7110 MSC7112 MSC7116 SC1400 SL10 1L44X MSC7115 PDF

    intrinsics

    Abstract: AN2280 MSC7116 MSC7118 MSC7119 SC140 MR102
    Contextual Info: Freescale Semiconductor Application Note 3GPP-AMR-NB With ETSI-EFR Implementation on the StarCore SC140/SC1400 Cores By Razvan Ungureanu, Bogdan Costinescu, and Costel Ilas Among the vocoders defined by the Third Generation Partnership Project 3GPP for use in the 3G world is the


    Original     		SC140/SC1400 SC140 MSC7116, MSC7118, MSC7119 intrinsics AN2280 MSC7116 MSC7118 MSC7119 MR102 PDF

    AN2094

    Abstract: AN2151 G729 G729A MNSC140CORE MSC8101 SC100 SC140 G.729 chip g.729 codec chip
    Contextual Info: Freescale Semiconductor Application Note AN2151 Rev. 1, 1/2005 ITU-T G.729A Implementation on the StarCore SC140/SC1400 Cores By Razvan Ungureanu, Bogdan Costinescu, and Costel Ilas This application note reflects the activity flow and the results of the ITU G.729A implementation on the StarCore™


    Original     		AN2151 SC140/SC1400 AN2094, AN2094 AN2151 G729 G729A MNSC140CORE MSC8101 SC100 SC140 G.729 chip g.729 codec chip PDF

    VT6103

    Abstract: via vt6103 architecture diagram for 8080 MSC7110 MSC7112 MSC7116 MSC7118 MSC7119 sc1000-family AK455
    Contextual Info: Freescale Semiconductor Product Brief MSC711xEVMPB Rev. 0, 2/2005 MSC711xEVM MSC711x Low-Cost Evaluation Kit to Support MSC7110, MSC7112, MSC7113, MSC7115, MSC7116, MSC7118, MSC7119 25-Pin EPP Host Header Command Converter JTAG 9-Pin JTAG Bus OCE10/ JTAG I2C


    Original     		MSC711xEVMPB MSC711xEVM MSC711x MSC7110, MSC7112, MSC7113, MSC7115, MSC7116, MSC7118, MSC7119 VT6103 via vt6103 architecture diagram for 8080 MSC7110 MSC7112 MSC7116 MSC7118 MSC7119 sc1000-family AK455 PDF

    AN2407

    Abstract: anti-log TABLE galois field theory Viterbi Decoder 640T SC100 SC140 "error correction algorithm"
    Contextual Info: Freescale Semiconductor Application Note AN2407 Rev. 1, 12/2004 Reed Solomon Encoder/Decoder on the StarCore SC140/SC1400 Cores, With Extended Examples By Jasmin Oz and Assaf Naor This application note describes the implementation of the ReedSolomon error-control codes on the StarCore™ SC140 DSP


    Original     		AN2407 SC140/SC1400 SC140 AN2407 anti-log TABLE galois field theory Viterbi Decoder 640T SC100 "error correction algorithm" PDF

    pl001

    Abstract: AN1838 AN2266 MNSC140CORE SC100 SC140
    Contextual Info: Freescale Semiconductor Application Note AN2266 Rev. 2, 11/2004 Developing Optimized Code for Both Size and Speed on the StarCore SC140/SC1400 Cores By Mihai Fecioru, Corneliu Margina, and Bogdan Costinescu This application note describes a set of techniques for


    Original     		AN2266 SC140/SC1400 SC140/SC1400 pl001 AN1838 AN2266 MNSC140CORE SC100 SC140 PDF

    g.729 codec chip

    Abstract: g.729 ic D4i40 L_mult_ls ELRA g729 AN2094 AN2151 G729A MNSC140CORE
    Contextual Info: Freescale Semiconductor Application Note ITU-T G.729A Implementation on the StarCore SC140/SC1400 Cores By Razvan Ungureanu, Bogdan Costinescu, and Costel Ilas This application note reflects the activity flow and the results of the ITU G.729A implementation on the StarCore™


    Original     		SC140/SC1400 AN2094, MSC7116 g.729 codec chip g.729 ic D4i40 L_mult_ls ELRA g729 AN2094 AN2151 G729A MNSC140CORE PDF

    anti-log TABLE

    Abstract: galois field theory AN2407 Viterbi Decoder 640T SC100 SC140 sp560 SP588 viterbi algorithm
    Contextual Info: Freescale Semiconductor Application Note AN2407 Rev. 1, 12/2004 Reed Solomon Encoder/Decoder on the StarCore SC140/SC1400 Cores, With Extended Examples By Jasmin Oz and Assaf Naor This application note describes the implementation of the ReedSolomon error-control codes on the StarCore™ SC140 DSP


    Original     		AN2407 SC140/SC1400 SC140 anti-log TABLE galois field theory AN2407 Viterbi Decoder 640T SC100 sp560 SP588 viterbi algorithm PDF

    AN3060

    Abstract: 0x30014-0x30017 SC1400 crossbar switch 0x0000C-0x0000F 0x20000-0x20003 0x00008-0x0000B
    Contextual Info: Freescale Semiconductor Application Note Document Number: AN3060 Rev. 0, 01/2006 MSC711x Optimization Techniques by Barbara Johnson Digital Systems Division Freescale Semiconductor, Inc. Austin, TX This application note discusses methods to optimize the performance of an MSC711x application. It provides


    Original     		AN3060 MSC711x MSC711x, SC1400 AN3060 0x30014-0x30017 crossbar switch 0x0000C-0x0000F 0x20000-0x20003 0x00008-0x0000B PDF

    VT6103

    Abstract: VT6103 data sheet via vt6103 VT6103 application note MSC7110 MSC7112 MSC7116 MSC7118 MSC7119 MSC711XEVM
    Contextual Info: Digital Signal Processors MSC711xEVM MSC711xEVM BLOCK DIAGRAM 25-Pin EPP A Powerful Evaluation Tool for MSC711x Designers The MSC711xEVM is a powerful, cost-effective Host Header Command Converter JTAG evaluation tool for software and hardware 9-Pin JTAG Bus


    Original     		MSC711xEVM MSC711xEVM 25-Pin MSC711x OCE10/JTAG MSC7110, MSC7112, MSC7113, VT6103 VT6103 data sheet via vt6103 VT6103 application note MSC7110 MSC7112 MSC7116 MSC7118 MSC7119 PDF